/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include using ::std::numeric_limits; namespace { template class ScFlatSegmentsImpl { public: typedef ValueType_ ValueType; typedef ExtValueType_ ExtValueType; struct RangeData { SCCOLROW mnPos1; SCCOLROW mnPos2; ValueType mnValue; }; ScFlatSegmentsImpl(SCCOLROW nMax, ValueType nDefault); ScFlatSegmentsImpl(const ScFlatSegmentsImpl& r); bool setValue(SCCOLROW nPos1, SCCOLROW nPos2, ValueType nValue); void setValueIf(SCCOLROW nPos1, SCCOLROW nPos2, ValueType nValue, const std::function& rPredicate); ValueType getValue(SCCOLROW nPos); ExtValueType getSumValue(SCCOLROW nPos1, SCCOLROW nPos2); bool getRangeData(SCCOLROW nPos, RangeData& rData); bool getRangeDataLeaf(SCCOLROW nPos, RangeData& rData); void removeSegment(SCCOLROW nPos1, SCCOLROW nPos2); void insertSegment(SCCOLROW nPos, SCCOLROW nSize, bool bSkipStartBoundary); SCCOLROW findLastTrue(ValueType nValue) const; // range iteration bool getFirst(RangeData& rData); bool getNext(RangeData& rData); void enableTreeSearch(bool b) { mbTreeSearchEnabled = b; } void makeReady(); private: typedef ::mdds::flat_segment_tree fst_type; fst_type maSegments; typename fst_type::const_iterator maItr; bool mbTreeSearchEnabled:1; }; } template ScFlatSegmentsImpl::ScFlatSegmentsImpl(SCCOLROW nMax, ValueType nDefault) : maSegments(0, nMax+1, nDefault), mbTreeSearchEnabled(true) { } template ScFlatSegmentsImpl::ScFlatSegmentsImpl(const ScFlatSegmentsImpl& r) : maSegments(r.maSegments), mbTreeSearchEnabled(r.mbTreeSearchEnabled) { } template bool ScFlatSegmentsImpl::setValue(SCCOLROW nPos1, SCCOLROW nPos2, ValueType nValue) { ::std::pair ret; ret = maSegments.insert(maItr, nPos1, nPos2+1, nValue); maItr = ret.first; return ret.second; } template void ScFlatSegmentsImpl::setValueIf(SCCOLROW nPos1, SCCOLROW nPos2, ValueType nValue, const std::function& rPredicate) { SCCOLROW nCurrentStartRow = nPos1; while (nCurrentStartRow <= nPos2) { RangeData aRangeData; getRangeData(nCurrentStartRow, aRangeData); if (rPredicate(aRangeData.mnValue)) { // set value from current iteration point on, til end of range. // Note that aRangeData may well contain much lower values for nPos1 setValue(nCurrentStartRow, std::min(nPos2, aRangeData.mnPos2), nValue); } // even if nPos2 is bigger than nPos2 this should terminate the loop nCurrentStartRow = aRangeData.mnPos2 + 1; } } template typename ScFlatSegmentsImpl::ValueType ScFlatSegmentsImpl::getValue(SCCOLROW nPos) { ValueType nValue = 0; if (!mbTreeSearchEnabled) { maSegments.search(nPos, nValue); return nValue; } if (!maSegments.is_tree_valid()) { assert(!ScGlobal::bThreadedGroupCalcInProgress); maSegments.build_tree(); } maSegments.search_tree(nPos, nValue); return nValue; } template typename ScFlatSegmentsImpl::ExtValueType ScFlatSegmentsImpl::getSumValue(SCCOLROW nPos1, SCCOLROW nPos2) { if (mbTreeSearchEnabled) { if (!maSegments.is_tree_valid()) { assert(!ScGlobal::bThreadedGroupCalcInProgress); maSegments.build_tree(); } RangeData aData; auto [it, found] = maSegments.search_tree(nPos1, aData.mnValue, &aData.mnPos1, &aData.mnPos2); if (!found) return 0; aData.mnPos2 = aData.mnPos2-1; // end point is not inclusive. sal_uInt32 nValue = 0; SCROW nCurPos = nPos1; SCROW nEndPos = aData.mnPos2; while (nEndPos <= nPos2) { sal_uInt32 nRes; if (o3tl::checked_multiply(aData.mnValue, nEndPos - nCurPos + 1, nRes)) { SAL_WARN("sc.core", "row height overflow"); nRes = SAL_MAX_INT32; } nValue = o3tl::saturating_add(nValue, nRes); nCurPos = nEndPos + 1; auto itPair = maSegments.search(it, nCurPos, aData.mnValue, &aData.mnPos1, &aData.mnPos2); if (!itPair.second) break; it = itPair.first; aData.mnPos2 = aData.mnPos2-1; // end point is not inclusive. nEndPos = aData.mnPos2; } if (nCurPos <= nPos2) { nEndPos = ::std::min(nEndPos, nPos2); sal_uInt32 nRes; if (o3tl::checked_multiply(aData.mnValue, nEndPos - nCurPos + 1, nRes)) { SAL_WARN("sc.core", "row height overflow"); nRes = SAL_MAX_INT32; } nValue = o3tl::saturating_add(nValue, nRes); } return nValue; } else { RangeData aData; if (!getRangeDataLeaf(nPos1, aData)) return 0; sal_uInt32 nValue = 0; SCROW nCurPos = nPos1; SCROW nEndPos = aData.mnPos2; while (nEndPos <= nPos2) { sal_uInt32 nRes; if (o3tl::checked_multiply(aData.mnValue, nEndPos - nCurPos + 1, nRes)) { SAL_WARN("sc.core", "row height overflow"); nRes = SAL_MAX_INT32; } nValue = o3tl::saturating_add(nValue, nRes); nCurPos = nEndPos + 1; if (!getRangeDataLeaf(nCurPos, aData)) break; nEndPos = aData.mnPos2; } if (nCurPos <= nPos2) { nEndPos = ::std::min(nEndPos, nPos2); sal_uInt32 nRes; if (o3tl::checked_multiply(aData.mnValue, nEndPos - nCurPos + 1, nRes)) { SAL_WARN("sc.core", "row height overflow"); nRes = SAL_MAX_INT32; } nValue = o3tl::saturating_add(nValue, nRes); } return nValue; } } template bool ScFlatSegmentsImpl::getRangeData(SCCOLROW nPos, RangeData& rData) { if (!mbTreeSearchEnabled) return getRangeDataLeaf(nPos, rData); if (!maSegments.is_tree_valid()) { assert(!ScGlobal::bThreadedGroupCalcInProgress); maSegments.build_tree(); } auto [it,found] = maSegments.search_tree(nPos, rData.mnValue, &rData.mnPos1, &rData.mnPos2); if (!found) return false; maItr = it; // cache the iterator to speed up ForwardIterator. rData.mnPos2 = rData.mnPos2-1; // end point is not inclusive. return true; } template bool ScFlatSegmentsImpl::getRangeDataLeaf(SCCOLROW nPos, RangeData& rData) { // Conduct leaf-node only search. Faster when searching between range insertion. const ::std::pair &ret = maSegments.search(maItr, nPos, rData.mnValue, &rData.mnPos1, &rData.mnPos2); if (!ret.second) return false; maItr = ret.first; rData.mnPos2 = rData.mnPos2-1; // end point is not inclusive. return true; } template void ScFlatSegmentsImpl::removeSegment(SCCOLROW nPos1, SCCOLROW nPos2) { maSegments.shift_left(nPos1, nPos2); maItr = maSegments.begin(); } template void ScFlatSegmentsImpl::insertSegment(SCCOLROW nPos, SCCOLROW nSize, bool bSkipStartBoundary) { maSegments.shift_right(nPos, nSize, bSkipStartBoundary); maItr = maSegments.begin(); } template SCCOLROW ScFlatSegmentsImpl::findLastTrue(ValueType nValue) const { SCCOLROW nPos = numeric_limits::max(); // position not found. typename fst_type::const_reverse_iterator itr = maSegments.rbegin(), itrEnd = maSegments.rend(); // Note that when searching in reverse direction, we need to skip the first // node, since the right-most leaf node does not store a valid value. for (++itr; itr != itrEnd; ++itr) { if (itr->second != nValue) { nPos = (--itr)->first - 1; break; } } return nPos; } template bool ScFlatSegmentsImpl::getFirst(RangeData& rData) { maItr = maSegments.begin(); return getNext(rData); } template bool ScFlatSegmentsImpl::getNext(RangeData& rData) { typename fst_type::const_iterator itrEnd = maSegments.end(); if (maItr == itrEnd) return false; rData.mnPos1 = maItr->first; rData.mnValue = maItr->second; ++maItr; if (maItr == itrEnd) return false; rData.mnPos2 = maItr->first - 1; return true; } template void ScFlatSegmentsImpl::makeReady() { assert(!ScGlobal::bThreadedGroupCalcInProgress); if (!maSegments.is_tree_valid()) maSegments.build_tree(); } class ScFlatUInt16SegmentsImpl : public ScFlatSegmentsImpl { public: explicit ScFlatUInt16SegmentsImpl(SCCOLROW nMax, sal_uInt16 nDefault) : ScFlatSegmentsImpl(nMax, nDefault) { } }; class ScFlatBoolSegmentsImpl : public ScFlatSegmentsImpl { public: explicit ScFlatBoolSegmentsImpl(SCCOLROW nMax) : ScFlatSegmentsImpl(nMax, false) { } bool setTrue(SCCOLROW nPos1, SCCOLROW nPos2); bool setFalse(SCCOLROW nPos1, SCCOLROW nPos2); }; bool ScFlatBoolSegmentsImpl::setTrue(SCCOLROW nPos1, SCCOLROW nPos2) { return setValue(nPos1, nPos2, true); } bool ScFlatBoolSegmentsImpl::setFalse(SCCOLROW nPos1, SCCOLROW nPos2) { return setValue(nPos1, nPos2, false); } ScFlatBoolRowSegments::ForwardIterator::ForwardIterator(ScFlatBoolRowSegments& rSegs) : mrSegs(rSegs), mnCurPos(0), mnLastPos(-1), mbCurValue(false) { } bool ScFlatBoolRowSegments::ForwardIterator::getValue(SCROW nPos, bool& rVal) { if (nPos >= mnCurPos) // It can only go in a forward direction. mnCurPos = nPos; if (mnCurPos > mnLastPos) { // position not in the current segment. Update the current value. ScFlatBoolRowSegments::RangeData aData; if (!mrSegs.getRangeData(mnCurPos, aData)) return false; mbCurValue = aData.mbValue; mnLastPos = aData.mnRow2; } rVal = mbCurValue; return true; } ScFlatBoolRowSegments::RangeIterator::RangeIterator(ScFlatBoolRowSegments const & rSegs) : mrSegs(rSegs) { } bool ScFlatBoolRowSegments::RangeIterator::getFirst(RangeData& rRange) { ScFlatBoolSegmentsImpl::RangeData aData; if (!mrSegs.mpImpl->getFirst(aData)) return false; rRange.mnRow1 = static_cast(aData.mnPos1); rRange.mnRow2 = static_cast(aData.mnPos2); rRange.mbValue = static_cast(aData.mnValue); return true; } bool ScFlatBoolRowSegments::RangeIterator::getNext(RangeData& rRange) { ScFlatBoolSegmentsImpl::RangeData aData; if (!mrSegs.mpImpl->getNext(aData)) return false; rRange.mnRow1 = static_cast(aData.mnPos1); rRange.mnRow2 = static_cast(aData.mnPos2); rRange.mbValue = static_cast(aData.mnValue); return true; } ScFlatBoolRowSegments::ScFlatBoolRowSegments(SCROW nMaxRow) : mpImpl(new ScFlatBoolSegmentsImpl(nMaxRow)) { } ScFlatBoolRowSegments::ScFlatBoolRowSegments(const ScFlatBoolRowSegments& r) : mpImpl(new ScFlatBoolSegmentsImpl(*r.mpImpl)) { } ScFlatBoolRowSegments::~ScFlatBoolRowSegments() { } bool ScFlatBoolRowSegments::setTrue(SCROW nRow1, SCROW nRow2) { return mpImpl->setTrue(static_cast(nRow1), static_cast(nRow2)); } bool ScFlatBoolRowSegments::setFalse(SCROW nRow1, SCROW nRow2) { return mpImpl->setFalse(static_cast(nRow1), static_cast(nRow2)); } bool ScFlatBoolRowSegments::getRangeData(SCROW nRow, RangeData& rData) const { ScFlatBoolSegmentsImpl::RangeData aData; if (!mpImpl->getRangeData(static_cast(nRow), aData)) return false; rData.mbValue = aData.mnValue; rData.mnRow1 = static_cast(aData.mnPos1); rData.mnRow2 = static_cast(aData.mnPos2); return true; } bool ScFlatBoolRowSegments::getRangeDataLeaf(SCROW nRow, RangeData& rData) { ScFlatBoolSegmentsImpl::RangeData aData; if (!mpImpl->getRangeDataLeaf(static_cast(nRow), aData)) return false; rData.mbValue = aData.mnValue; rData.mnRow1 = static_cast(aData.mnPos1); rData.mnRow2 = static_cast(aData.mnPos2); return true; } void ScFlatBoolRowSegments::removeSegment(SCROW nRow1, SCROW nRow2) { mpImpl->removeSegment(static_cast(nRow1), static_cast(nRow2)); } void ScFlatBoolRowSegments::insertSegment(SCROW nRow, SCROW nSize) { mpImpl->insertSegment(static_cast(nRow), static_cast(nSize), true/*bSkipStartBoundary*/); } SCROW ScFlatBoolRowSegments::findLastTrue() const { return mpImpl->findLastTrue(false); } void ScFlatBoolRowSegments::makeReady() { mpImpl->makeReady(); } OString ScFlatBoolRowSegments::dumpAsString() { OString aOutput; OString aSegment; RangeData aRange; SCROW nRow = 0; while (getRangeData(nRow, aRange)) { if (!nRow) aSegment = (aRange.mbValue ? OStringLiteral("1") : OStringLiteral("0")) + OString::Concat(":"); else aSegment.clear(); aSegment += OString::number(aRange.mnRow2) + " "; aOutput += aSegment; nRow = aRange.mnRow2 + 1; } return aOutput; } ScFlatBoolColSegments::ScFlatBoolColSegments(SCCOL nMaxCol) : mpImpl(new ScFlatBoolSegmentsImpl(nMaxCol)) { } ScFlatBoolColSegments::ScFlatBoolColSegments(const ScFlatBoolColSegments& r) : mpImpl(new ScFlatBoolSegmentsImpl(*r.mpImpl)) { } ScFlatBoolColSegments::~ScFlatBoolColSegments() { } bool ScFlatBoolColSegments::setTrue(SCCOL nCol1, SCCOL nCol2) { return mpImpl->setTrue(static_cast(nCol1), static_cast(nCol2)); } bool ScFlatBoolColSegments::setFalse(SCCOL nCol1, SCCOL nCol2) { return mpImpl->setFalse(static_cast(nCol1), static_cast(nCol2)); } bool ScFlatBoolColSegments::getRangeData(SCCOL nCol, RangeData& rData) { ScFlatBoolSegmentsImpl::RangeData aData; if (!mpImpl->getRangeData(static_cast(nCol), aData)) return false; rData.mbValue = aData.mnValue; rData.mnCol1 = static_cast(aData.mnPos1); rData.mnCol2 = static_cast(aData.mnPos2); return true; } void ScFlatBoolColSegments::removeSegment(SCCOL nCol1, SCCOL nCol2) { mpImpl->removeSegment(static_cast(nCol1), static_cast(nCol2)); } void ScFlatBoolColSegments::insertSegment(SCCOL nCol, SCCOL nSize) { mpImpl->insertSegment(static_cast(nCol), static_cast(nSize), true/*bSkipStartBoundary*/); } void ScFlatBoolColSegments::makeReady() { mpImpl->makeReady(); } OString ScFlatBoolColSegments::dumpAsString() { OString aOutput; OString aSegment; RangeData aRange; SCCOL nCol = 0; while (getRangeData(nCol, aRange)) { if (!nCol) aSegment = (aRange.mbValue ? OString::Concat("1") : OString::Concat("0")) + OString::Concat(":"); else aSegment.clear(); aSegment += OString::number(aRange.mnCol2) + " "; aOutput += aSegment; nCol = aRange.mnCol2 + 1; } return aOutput; } ScFlatUInt16RowSegments::ForwardIterator::ForwardIterator(ScFlatUInt16RowSegments& rSegs) : mrSegs(rSegs), mnCurPos(0), mnLastPos(-1), mnCurValue(0) { } bool ScFlatUInt16RowSegments::ForwardIterator::getValue(SCROW nPos, sal_uInt16& rVal) { if (nPos >= mnCurPos) // It can only go in a forward direction. mnCurPos = nPos; if (mnCurPos > mnLastPos) { // position not in the current segment. Update the current value. ScFlatUInt16SegmentsImpl::RangeData aData; if (mnLastPos == -1) { // first time in this method, use the tree search based method if (!mrSegs.mpImpl->getRangeData(mnCurPos, aData)) return false; } else { // but on subsequent calls, use the leaf method, which is faster // because we have a cached iterator. if (!mrSegs.mpImpl->getRangeDataLeaf(mnCurPos, aData)) return false; } mnCurValue = aData.mnValue; mnLastPos = aData.mnPos2; } rVal = mnCurValue; return true; } ScFlatUInt16RowSegments::ScFlatUInt16RowSegments(SCROW nMaxRow, sal_uInt16 nDefault) : mpImpl(new ScFlatUInt16SegmentsImpl(nMaxRow, nDefault)) { } ScFlatUInt16RowSegments::ScFlatUInt16RowSegments(const ScFlatUInt16RowSegments& r) : mpImpl(new ScFlatUInt16SegmentsImpl(*r.mpImpl)) { } ScFlatUInt16RowSegments::~ScFlatUInt16RowSegments() { } void ScFlatUInt16RowSegments::setValue(SCROW nRow1, SCROW nRow2, sal_uInt16 nValue) { mpImpl->setValue(static_cast(nRow1), static_cast(nRow2), nValue); } sal_uInt16 ScFlatUInt16RowSegments::getValue(SCROW nRow) { return mpImpl->getValue(static_cast(nRow)); } sal_uInt32 ScFlatUInt16RowSegments::getSumValue(SCROW nRow1, SCROW nRow2) { return mpImpl->getSumValue(static_cast(nRow1), static_cast(nRow2)); } bool ScFlatUInt16RowSegments::getRangeData(SCROW nRow, RangeData& rData) { ScFlatUInt16SegmentsImpl::RangeData aData; if (!mpImpl->getRangeData(static_cast(nRow), aData)) return false; rData.mnRow1 = aData.mnPos1; rData.mnRow2 = aData.mnPos2; rData.mnValue = aData.mnValue; return true; } void ScFlatUInt16RowSegments::removeSegment(SCROW nRow1, SCROW nRow2) { mpImpl->removeSegment(static_cast(nRow1), static_cast(nRow2)); } void ScFlatUInt16RowSegments::insertSegment(SCROW nRow, SCROW nSize) { mpImpl->insertSegment(static_cast(nRow), static_cast(nSize), false/*bSkipStartBoundary*/); } SCROW ScFlatUInt16RowSegments::findLastTrue(sal_uInt16 nValue) const { return mpImpl->findLastTrue(nValue); } void ScFlatUInt16RowSegments::enableTreeSearch(bool bEnable) { mpImpl->enableTreeSearch(bEnable); } void ScFlatUInt16RowSegments::setValueIf(SCROW nRow1, SCROW nRow2, sal_uInt16 nValue, const std::function& rPredicate) { mpImpl->setValueIf(static_cast(nRow1), static_cast(nRow2), nValue, rPredicate); } void ScFlatUInt16RowSegments::makeReady() { mpImpl->makeReady(); } OString ScFlatUInt16RowSegments::dumpAsString() { OString aOutput; OString aSegment; RangeData aRange; SCROW nRow = 0; while (getRangeData(nRow, aRange)) { aSegment = OString::number(aRange.mnValue) + ":" + OString::number(aRange.mnRow2) + " "; aOutput += aSegment; nRow = aRange.mnRow2 + 1; } return aOutput; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */